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              <li><%= Html.ActionLink("The Science", "Science", "Account")%></li>
              <li><%= Html.ActionLink("Neuroscience", "Neuroscience", "Account")%></li>
              <li>Proven Results</li>
              <li><%= Html.ActionLink("Cognitive Health", "Health", "Account")%></li>
              <li><%= Html.ActionLink("Your Brain", "Brain", "Account")%></li>
              <li><%= Html.ActionLink("Training Cognitive Skills", "Training_cognitive_skills", "Account")%></li>
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          <h1 class="why_r_h1">Proven Results</h1>
          <p>Other studies, however, have looked at changes in tests of everyday function that occur after brain-based training. In a review of these studies, the following were noted. Improvements on speed of processing training tests were related to improvements in the Evidence of ceiling effects were also noted, indicating that subjects who were further below normal at the beginning of training had the largest expected gains.<br/> Further, the effect sizes may be related to Subjects trained with one training strategy, the Useful Field of View test (UFOV), showed significant improvements in an on-the-road driving test designed to evaluate driver response during potential dangerous situations. Specifically, subjects trained with UFOV made fewer dangerous maneuvers after training.[35] In another study, the researchers have found that action video game experience is shown to improve trainees' probabilistic inference. These results were established both in visual and auditory tasks, indicating generalization across modalities </p>
          <ul class="cognimap">
                <h1 class="results_h1">RELEVANT REFERENCES</h1>
                <li>Sandra Aamodt, Sam Wang (November 8, 2007). <a href="#">"Exercise on the brain"</a>.<br/>
                New York Times. <a href="#">http://www.nytimes.com/2007/11/08/opinion/08aamodt.html.</a></li>
                <li>Scarmeas, N; Y Stern (2003). "Cognitive reserve and lifestyle". <br/>
                J Clin Exp Neuropsychol 25 (5): 625-33. <a href="#">doi:10.1076/jcen.25.5.625.14576 doi:10.1076/jcen.25.5.625.14576. PMID 12815500.</a></li>
                <li>Kramer, AF; Erickson KI, Colcombe SJ (2006). "Exercise, cognition, and the aging brain". <br/>
                J Appl Physiol 101 (4): 1237-42. <a href="#">doi:10.1152/japplphysiol.00500.2006. PMID 16778001.</a></li>
                <li>Willis, SL; SL Tennstedt, M Marsiske, et al. (2006). <a href="#">"Long-term effects of cognitive training on everyday functional 
outcomes in older adults". </a><br/>JAMA 296(23):2805-14. <a href="#">doi:10.1001/jama.296.23.2805.PMC 2910591.PMID 17179457.</a></li>
				<li>Cassavaugh, N; Kramer, AF (2009). "Transfer of computer-based cognitive training to simulated driving in older adults".Applied Ergonomics 40 (5):943-952. <a href="#">doi:10.1016/japergo.2009.02.001.PMID 19268912.</a></li>
				<li>Whitbourne, S. (April 6, 2010). <a href="#">Building a better brain: Strengthening your mental muscle.</a><br/>Psychology Today. Sussex Publishers. </li>
				<li>"A cognitive training program based on principles of brain plasticity: results from the Improvement in Memory with Plasticity-based Adaptive Cognitive Training (IMPACT) study." J Am Geriatr Soc. 2009 Apr;57(4):594-603 </li>
				<li>"Memory enhancement in healthy older adults using a brain plasticity-based training program: A randomized, controlled study" PNAS USA. 2006 August 15;103(33):12523-8</li>
				<li>Ball, K; Berch DB, Helmers KF, et al. (2002). <a href="#">"Effects of cognitive training interventions with older adults: a randomized controlled trial".</a><br/>JAMA 288 (18): 2271-81.<a href="#">doi:10.1001/jama.288.18.2271. PMC 2916176. PMID 12425704.</a><a href="#">http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2916176.</a></li>
				<li>Ball, K; Berch DB, Helmers KF, et al. (2002). <a href="#">"Effects of cognitive training interventions with older adults: a randomized controlled trial".</a><br/>JAMA 288 (18): 2271-81.<a href="#">doi:10.1001/jama.288.18.2271. PMC 2916176. PMID 12425704.</a><a href="#">http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2916176.</a></li>
				<li>NY Times Op-Ed Exercise on the Brain. Sandra Aamodt and Sam Wang. Nov 8 2007. </li>
				<li>The Impact of Speed of Processing Training on Cognitive and Everyday Functions.<br/>
Author: Karlene Ball, Jerri D. Edwards, and Lesley A. Ross<br/>
Journal: Journals of Gerontology: SERIES B 2007, Vol. <br/>
62B (Special Issue I): 19-31 ^ Green, Shawn; Pouge A, Bavelier D, (September 2010). 
<a href="#">"Improved Probabilistic Inference as a General Learning Mechanism with Action Video Games".</a><br/>
Current Biology 20 (17): 1573-1579.<a href="#">doi:10.1016/j.cub.2010.07.040. PMC.2956114. PMID.20833324.</a>
<a href="#">http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2956114</a> </li>
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